struct c_ipmi_instance_s {
char *name;
ignorelist_t *ignorelist;
- _Bool notify_add;
- _Bool notify_remove;
- _Bool notify_notpresent;
- _Bool notify_conn;
- _Bool sel_enabled;
- _Bool sel_clear_event;
+ ignorelist_t *sel_ignorelist;
+ bool notify_add;
+ bool notify_remove;
+ bool notify_notpresent;
+ bool notify_conn;
+ bool sel_enabled;
+ bool sel_clear_event;
char *host;
char *connaddr;
char *password;
unsigned int authtype;
- _Bool connected;
+ bool connected;
ipmi_con_t *connection;
pthread_mutex_t sensor_list_lock;
c_ipmi_sensor_list_t *sensor_list;
- _Bool active;
+ bool active;
pthread_t thread_id;
int init_in_progress;
ipmi_sensor_id_t sensor_id;
char sensor_name[DATA_MAX_NAME_LEN];
char sensor_type[DATA_MAX_NAME_LEN];
+ char type_instance[DATA_MAX_NAME_LEN];
int sensor_not_present;
c_ipmi_sensor_list_t *next;
c_ipmi_instance_t *instance;
unsigned int use;
};
+struct c_ipmi_db_type_map_s {
+ enum ipmi_unit_type_e type;
+ const char *type_name;
+};
+typedef struct c_ipmi_db_type_map_s c_ipmi_db_type_map_t;
+
/*
* Module global variables
*/
-static os_handler_t *os_handler = NULL;
-static c_ipmi_instance_t *instances = NULL;
+static os_handler_t *os_handler;
+static c_ipmi_instance_t *instances;
/*
* Misc private functions
if (errbuf[0] == 0) {
snprintf(errbuf, sizeof(errbuf), "Unknown error %#x", status);
}
- errbuf[sizeof(errbuf) - 1] = 0;
+ errbuf[sizeof(errbuf) - 1] = '\0';
ERROR("ipmi plugin: %s failed for `%s`: %s", func, st->name, errbuf);
} /* void c_ipmi_error */
void *user_data) {
value_list_t vl = VALUE_LIST_INIT;
- c_ipmi_sensor_list_t *list_item = (c_ipmi_sensor_list_t *)user_data;
+ c_ipmi_sensor_list_t *list_item = user_data;
c_ipmi_instance_t *st = list_item->instance;
list_item->use--;
if (st->notify_notpresent) {
notification_t n = c_ipmi_notification_init(st, NOTIF_WARNING);
- sstrncpy(n.type_instance, list_item->sensor_name,
+ sstrncpy(n.type_instance, list_item->type_instance,
sizeof(n.type_instance));
sstrncpy(n.type, list_item->sensor_type, sizeof(n.type));
snprintf(n.message, sizeof(n.message), "sensor %s not present",
if (st->notify_notpresent) {
notification_t n = c_ipmi_notification_init(st, NOTIF_OKAY);
- sstrncpy(n.type_instance, list_item->sensor_name,
+ sstrncpy(n.type_instance, list_item->type_instance,
sizeof(n.type_instance));
sstrncpy(n.type, list_item->sensor_type, sizeof(n.type));
snprintf(n.message, sizeof(n.message), "sensor %s present",
sstrncpy(vl.host, st->host, sizeof(vl.host));
sstrncpy(vl.plugin, "ipmi", sizeof(vl.plugin));
sstrncpy(vl.type, list_item->sensor_type, sizeof(vl.type));
- sstrncpy(vl.type_instance, list_item->sensor_name, sizeof(vl.type_instance));
+ sstrncpy(vl.type_instance, list_item->type_instance,
+ sizeof(vl.type_instance));
plugin_dispatch_values(&vl);
} /* void sensor_read_handler */
return;
ipmi_sensor_get_name(sensor, temp, sizeof(temp));
- temp[sizeof(temp) - 1] = 0;
+ temp[sizeof(temp) - 1] = '\0';
if (entity_id_string != NULL && strlen(temp))
snprintf(sensor_name, sizeof(sensor_name), "%s %s", temp, entity_id_string);
sstrncpy(buffer, sensor_name, buf_len);
}
+static const char *sensor_unit_to_type(ipmi_sensor_t *sensor) {
+ static const c_ipmi_db_type_map_t ipmi_db_type_map[] = {
+ {IPMI_UNIT_TYPE_WATTS, "power"}, {IPMI_UNIT_TYPE_CFM, "flow"}};
+
+ /* check the modifier and rate of the sensor value */
+ if ((ipmi_sensor_get_modifier_unit_use(sensor) != IPMI_MODIFIER_UNIT_NONE) ||
+ (ipmi_sensor_get_rate_unit(sensor) != IPMI_RATE_UNIT_NONE))
+ return NULL;
+
+ /* find the db type by using sensor base unit type */
+ enum ipmi_unit_type_e ipmi_type = ipmi_sensor_get_base_unit(sensor);
+ for (size_t i = 0; i < STATIC_ARRAY_SIZE(ipmi_db_type_map); i++)
+ if (ipmi_db_type_map[i].type == ipmi_type)
+ return ipmi_db_type_map[i].type_name;
+
+ return NULL;
+} /* const char* sensor_unit_to_type */
+
static int sensor_list_add(c_ipmi_instance_t *st, ipmi_sensor_t *sensor) {
ipmi_sensor_id_t sensor_id;
c_ipmi_sensor_list_t *list_item;
*
* ipmi_sensor_id_get_reading() supports only 'Threshold' sensors.
* See lib/sensor.c:4842, stand_ipmi_sensor_get_reading() for details.
- */
+ */
if (!ipmi_sensor_get_is_readable(sensor)) {
INFO("ipmi plugin: sensor_list_add: Ignore sensor `%s` of `%s`, "
- "because it don't readable! Its type: (%#x, %s). ",
+ "because it isn't readable! Its type: (%#x, %s). ",
sensor_name_ptr, st->name, sensor_type,
ipmi_sensor_get_sensor_type_string(sensor));
return -1;
type = "fanspeed";
break;
+ case IPMI_SENSOR_TYPE_MEMORY:
+ type = "memory";
+ break;
+
default: {
+ /* try to get collectd DB type based on sensor base unit type */
+ if ((type = sensor_unit_to_type(sensor)) != NULL)
+ break;
+
INFO("ipmi plugin: sensor_list_add: Ignore sensor `%s` of `%s`, "
- "because I don't know how to handle its type (%#x, %s). "
- "If you need this sensor, please file a bug report.",
- sensor_name_ptr, st->name, sensor_type,
+ "because I don't know how to handle its units (%#x, %#x, %#x). "
+ "Sensor type: (%#x, %s). If you need this sensor, please file "
+ "a bug report at http://collectd.org/.",
+ sensor_name_ptr, st->name, ipmi_sensor_get_base_unit(sensor),
+ ipmi_sensor_get_modifier_unit(sensor),
+ ipmi_sensor_get_rate_unit(sensor), sensor_type,
ipmi_sensor_get_sensor_type_string(sensor));
return -1;
}
return 0;
}
- list_item = (c_ipmi_sensor_list_t *)calloc(1, sizeof(c_ipmi_sensor_list_t));
+ list_item = calloc(1, sizeof(*list_item));
if (list_item == NULL) {
pthread_mutex_unlock(&st->sensor_list_lock);
return -1;
else
st->sensor_list = list_item;
+ /* if sensor provides the percentage value, use "percent" collectd type
+ and add the `percent` to the type instance of the reported value */
+ if (ipmi_sensor_get_percentage(sensor)) {
+ snprintf(list_item->type_instance, sizeof(list_item->type_instance),
+ "percent-%s", sensor_name_ptr);
+ type = "percent";
+ } else {
+ /* use type instance as a name of the sensor */
+ sstrncpy(list_item->type_instance, sensor_name_ptr,
+ sizeof(list_item->type_instance));
+ }
+
sstrncpy(list_item->sensor_name, sensor_name_ptr,
sizeof(list_item->sensor_name));
sstrncpy(list_item->sensor_type, type, sizeof(list_item->sensor_type));
if (st->notify_add && (st->init_in_progress == 0)) {
notification_t n = c_ipmi_notification_init(st, NOTIF_OKAY);
- sstrncpy(n.type_instance, list_item->sensor_name, sizeof(n.type_instance));
+ sstrncpy(n.type_instance, list_item->type_instance,
+ sizeof(n.type_instance));
sstrncpy(n.type, list_item->sensor_type, sizeof(n.type));
snprintf(n.message, sizeof(n.message), "sensor %s added",
list_item->sensor_name);
if (st->notify_remove && st->active) {
notification_t n = c_ipmi_notification_init(st, NOTIF_WARNING);
- sstrncpy(n.type_instance, list_item->sensor_name, sizeof(n.type_instance));
+ sstrncpy(n.type_instance, list_item->type_instance,
+ sizeof(n.type_instance));
sstrncpy(n.type, list_item->sensor_type, sizeof(n.type));
snprintf(n.message, sizeof(n.message), "sensor %s removed",
list_item->sensor_name);
enum ipmi_value_present_e value_present, unsigned int raw_value,
double value, void *cb_data, ipmi_event_t *event) {
- c_ipmi_instance_t *st = (c_ipmi_instance_t *)cb_data;
+ c_ipmi_instance_t *st = cb_data;
/* From the IPMI specification Chapter 2: Events.
* If a callback handles the event, then all future callbacks called due to
int severity, int prev_severity,
void *cb_data, ipmi_event_t *event) {
- c_ipmi_instance_t *st = (c_ipmi_instance_t *)cb_data;
+ c_ipmi_instance_t *st = cb_data;
/* From the IPMI specification Chapter 2: Events.
* If a callback handles the event, then all future callbacks called due to
return IPMI_EVENT_NOT_HANDLED;
} /* int sensor_discrete_event_handler */
+static int sel_list_add(c_ipmi_instance_t *st, ipmi_sensor_t *sensor) {
+ char sensor_name[DATA_MAX_NAME_LEN] = {0};
+ int status = 0;
+
+ /* Check if sensor on sel_ignorelist */
+ sensor_get_name(sensor, sensor_name, sizeof(sensor_name));
+ if (ignorelist_match(st->sel_ignorelist, sensor_name) != 0)
+ return 0;
+
+ /* register threshold event if threshold sensor support events */
+ if (ipmi_sensor_get_event_reading_type(sensor) ==
+ IPMI_EVENT_READING_TYPE_THRESHOLD)
+ status = ipmi_sensor_add_threshold_event_handler(
+ sensor, sensor_threshold_event_handler, st);
+ /* register discrete handler if discrete/specific sensor support events */
+ else if (ipmi_sensor_get_event_support(sensor) != IPMI_EVENT_SUPPORT_NONE)
+ status = ipmi_sensor_add_discrete_event_handler(
+ sensor, sensor_discrete_event_handler, st);
+
+ if (status)
+ ERROR("Unable to add sensor %s event handler, status: %d", sensor_name,
+ status);
+ return status;
+}
+
+static void sel_list_remove(c_ipmi_instance_t *st, ipmi_sensor_t *sensor) {
+ if (ipmi_sensor_get_event_reading_type(sensor) ==
+ IPMI_EVENT_READING_TYPE_THRESHOLD)
+ ipmi_sensor_remove_threshold_event_handler(
+ sensor, sensor_threshold_event_handler, st);
+ else
+ ipmi_sensor_remove_discrete_event_handler(
+ sensor, sensor_discrete_event_handler, st);
+}
/*
* Entity handlers
*/
entity_sensor_update_handler(enum ipmi_update_e op,
ipmi_entity_t __attribute__((unused)) * entity,
ipmi_sensor_t *sensor, void *user_data) {
- c_ipmi_instance_t *st = (c_ipmi_instance_t *)user_data;
+ c_ipmi_instance_t *st = user_data;
if ((op == IPMI_ADDED) || (op == IPMI_CHANGED)) {
/* Will check for duplicate entries.. */
sensor_list_add(st, sensor);
-
- if (st->sel_enabled) {
- int status = 0;
- /* register threshold event if threshold sensor support events */
- if ((ipmi_sensor_get_event_reading_type(sensor) ==
- IPMI_EVENT_READING_TYPE_THRESHOLD) &&
- (ipmi_sensor_get_threshold_access(sensor) !=
- IPMI_THRESHOLD_ACCESS_SUPPORT_NONE))
- status = ipmi_sensor_add_threshold_event_handler(
- sensor, sensor_threshold_event_handler, st);
- /* register discrete handler if discrete/specific sensor support events */
- else if (ipmi_sensor_get_event_support(sensor) != IPMI_EVENT_SUPPORT_NONE)
- status = ipmi_sensor_add_discrete_event_handler(
- sensor, sensor_discrete_event_handler, st);
-
- if (status) {
- char buf[DATA_MAX_NAME_LEN] = {0};
- sensor_get_name(sensor, buf, sizeof(buf));
- ERROR("Unable to add sensor %s event handler, status: %d", buf, status);
- }
- }
+ if (st->sel_enabled)
+ sel_list_add(st, sensor);
} else if (op == IPMI_DELETED) {
sensor_list_remove(st, sensor);
-
- if (st->sel_enabled) {
- if (ipmi_sensor_get_event_reading_type(sensor) ==
- IPMI_EVENT_READING_TYPE_THRESHOLD)
- ipmi_sensor_remove_threshold_event_handler(
- sensor, sensor_threshold_event_handler, st);
- else
- ipmi_sensor_remove_discrete_event_handler(
- sensor, sensor_discrete_event_handler, st);
- }
+ if (st->sel_enabled)
+ sel_list_remove(st, sensor);
}
} /* void entity_sensor_update_handler */
ipmi_domain_t __attribute__((unused)) * domain,
ipmi_entity_t *entity, void *user_data) {
int status;
- c_ipmi_instance_t *st = (c_ipmi_instance_t *)user_data;
+ c_ipmi_instance_t *st = user_data;
if (op == IPMI_ADDED) {
status = ipmi_entity_add_sensor_update_handler(
"user_data = %p);",
(void *)domain, err, conn_num, port_num, still_connected, user_data);
- c_ipmi_instance_t *st = (c_ipmi_instance_t *)user_data;
+ c_ipmi_instance_t *st = user_data;
if (err != 0)
c_ipmi_error(st, "domain_connection_change_handler", err);
plugin_dispatch_notification(&n);
}
- st->connected = 0;
+ st->connected = false;
return;
}
plugin_dispatch_notification(&n);
}
- st->connected = 1;
+ st->connected = true;
int status = ipmi_domain_add_entity_update_handler(
domain, domain_entity_update_handler, /* user data = */ st);
if (st->connaddr != NULL) {
status = ipmi_ip_setup_con(
- &st->connaddr, (char * [1]){IPMI_LAN_STD_PORT_STR}, 1, st->authtype,
+ &st->connaddr, &(char *){IPMI_LAN_STD_PORT_STR}, 1, st->authtype,
(unsigned int)IPMI_PRIVILEGE_USER, st->username, strlen(st->username),
st->password, strlen(st->password), os_handler,
/* user data = */ NULL, &st->connection);
} /* int c_ipmi_thread_init */
static void *c_ipmi_thread_main(void *user_data) {
- c_ipmi_instance_t *st = (c_ipmi_instance_t *)user_data;
+ c_ipmi_instance_t *st = user_data;
int status = c_ipmi_thread_init(st);
if (status != 0) {
ERROR("ipmi plugin: c_ipmi_thread_init failed.");
- st->active = 0;
+ st->active = false;
return (void *)-1;
}
- while (st->active != 0) {
+ while (st->active) {
struct timeval tv = {1, 0};
os_handler->perform_one_op(os_handler, &tv);
}
return NULL;
}
+ st->sel_ignorelist = ignorelist_create(/* invert = */ 1);
+ if (st->sel_ignorelist == NULL) {
+ ignorelist_free(st->ignorelist);
+ sfree(st->name);
+ sfree(st);
+ ERROR("ipmi plugin: SEL ignorelist_create() failed.");
+ return NULL;
+ }
+
st->sensor_list = NULL;
pthread_mutex_init(&st->sensor_list_lock, /* attr = */ NULL);
sfree(st->username);
sfree(st->password);
+ ignorelist_free(st->sel_ignorelist);
ignorelist_free(st->ignorelist);
pthread_mutex_destroy(&st->sensor_list_lock);
sfree(st);
for (int i = 0; i < ci->children_num; i++) {
oconfig_item_t *child = ci->children + i;
- if (strcasecmp("Sensor", child->key) == 0)
- ignorelist_add(st->ignorelist, ci->values[0].value.string);
- else if (strcasecmp("IgnoreSelected", child->key) == 0) {
- _Bool t;
+ if (strcasecmp("Sensor", child->key) == 0) {
+ char *value = NULL;
+ status = cf_util_get_string(child, &value);
+ if (status != 0)
+ break;
+ ignorelist_add(st->ignorelist, value);
+ sfree(value);
+ } else if (strcasecmp("IgnoreSelected", child->key) == 0) {
+ bool t;
status = cf_util_get_boolean(child, &t);
if (status != 0)
break;
status = cf_util_get_boolean(child, &st->notify_remove);
} else if (strcasecmp("NotifySensorNotPresent", child->key) == 0) {
status = cf_util_get_boolean(child, &st->notify_notpresent);
+ } else if (strcasecmp("SELSensor", child->key) == 0) {
+ char *value = NULL;
+ status = cf_util_get_string(child, &value);
+ if (status != 0)
+ break;
+ ignorelist_add(st->sel_ignorelist, value);
+ sfree(value);
+ } else if (strcasecmp("SELIgnoreSelected", child->key) == 0) {
+ bool t;
+ status = cf_util_get_boolean(child, &t);
+ if (status != 0)
+ break;
+ ignorelist_set_invert(st->sel_ignorelist, /* invert = */ !t);
} else if (strcasecmp("SELEnabled", child->key) == 0) {
status = cf_util_get_boolean(child, &st->sel_enabled);
} else if (strcasecmp("SELClearEvent", child->key) == 0) {
} /* int c_ipmi_config_add_instance */
static int c_ipmi_config(oconfig_item_t *ci) {
- _Bool have_instance_block = 0;
+ bool have_instance_block = 0;
for (int i = 0; i < ci->children_num; i++) {
oconfig_item_t *child = ci->children + i;
static int c_ipmi_read(user_data_t *user_data) {
c_ipmi_instance_t *st = user_data->data;
- if (st->active == 0) {
+ if (st->active == false) {
INFO("ipmi plugin: c_ipmi_read: I'm not active, returning false.");
return -1;
}
- if (st->connected == 0)
+ if (st->connected == false)
return 0;
sensor_list_read_all(st);
}
/* Don't send `ADD' notifications during startup (~ 1 minute) */
- int cycles = 1 + (60 / CDTIME_T_TO_TIME_T(plugin_get_interval()));
+ int cycles = 1 + (int)(TIME_T_TO_CDTIME_T(60) / plugin_get_interval());
st = instances;
while (NULL != st) {
}
st->init_in_progress = cycles;
- st->active = 1;
+ st->active = true;
status = plugin_thread_create(&st->thread_id, /* attr = */ NULL,
c_ipmi_thread_main,
/* user data = */ (void *)st, "ipmi");
if (status != 0) {
- st->active = 0;
+ st->active = false;
st->thread_id = (pthread_t){0};
plugin_unregister_read(callback_name);
c_ipmi_instance_t *next = st->next;
st->next = NULL;
- st->active = 0;
+ st->active = false;
if (!pthread_equal(st->thread_id, (pthread_t){0})) {
pthread_join(st->thread_id, NULL);